INTERNAL DATA ACQUISITION SYSTEM (idas)

INSTRUCTION MANUAL INTERNAL DATA ACQUISITION SYSTEM (idas) 35 INVERNESS DRIVE EAST ENGLEWOOD, CO 80112 USA TOLL-FREE SUPPORT: 800-846-6062 FAX: 303-799-4853 TEL: 303-792-3300 E-MAIL: tml_support@teledyne.com WEBSITE: http://www.teledyne-ml.com 028370000 Copyright 2009 REV. B Teledyne Monitor Labs, Inc. July 2009

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idas Instruction Manual TABLE OF CONTENTS Table of Contents TABLE OF CONTENTS... I LIST OF FIGURES... II LIST OF TABLES... II USER NOTES... IV 1. INTRODUCTION... 1 1.1. DESIGN OBJECTIVES... 1 1.2. INSTRUMENTS CONTAINING IDAS... 1 1.3. EVOLUTION OF THE IDAS... 1 1.4. EXAMPLES USED IN THIS MANUAL... 2 1.5. TYPOGRAPHIC CONVENTIONS USED IN THIS MANUAL... 2 USER NOTES... 4 2. CONFIGURATION... 5 2.1. DATA PARAMETERS, TRIGGERING EVENTS, AND DATA CHANNELS... 5 2.1.1. Data Parameters... 6 2.1.2. Triggering Events... 7 2.1.3. Data Channels... 7 2.2. MENU TREE FOR CONFIGURING IDAS... 10 2.2.1. Editing the List of Data Channels... 10 2.2.2. Editing the Data Channel s Properties... 11 2.2.3. Editing the List of Data Parameters... 12 2.2.4. Editing the Data Parameter s Properties... 13 2.3. MODIFYING THE IDAS CONFIGURATION... 13 2.3.1. Configuring Data Channels... 14 2.3.2. Easy Data Channel Properties in Detail... 15 2.3.3. Hard Data Channel Properties in Detail... 19 2.3.4. Configuring Data Parameters... 21 2.3.5. Data Parameter Properties in Detail... 22 2.4. CONFIGURATION EXAMPLES... 25 2.4.1. Sampling at Regular Intervals... 25 2.4.2. Sampling during Calibration... 26 2.4.3. Sampling after Exceptional Events... 27 2.5. MAXIMUM NUMBER OF CHANNELS, PARAMETERS, AND RECORDS... 27 3. OPERATING THE IDAS... 31 3.1. WHEN THE IDAS IS OPERATING... 31 3.2. DISABLING THE IDAS... 31 3.3. IDAS STATUS INDICATORS... 31 3.4. AVERAGES IN PROGRESS WHEN INSTRUMENT IS POWERED OFF... 31 4. VIEWING THE STORED DATA... 33 4.1. MENU FOR VIEWING THE DATA CHANNEL STATUS... 33 4.2. MENU FOR VIEWING THE STORED DATA FOR A CHANNEL... 34 4.3. DATA IS STORED AS TWO DIMENSIONAL TABLE... 35 4.4. DELETING THE STORED DATA FOR A DATA CHANNEL... 36 5. RS-232 INTERFACE TO THE IDAS... 37 5.1. CONFIGURING THE RS-232 INTERFACE... 37 5.1.1. Setting the Baud Rate... 37 5.1.2. Setting the Interface Mode... 37 5.1.3. Recommended Mode Settings... 38 5.2. COMMAND LINE INTERFACE... 38 5.3. GENERAL COMMANDS... 38 5.4. IDAS COMMANDS... 39 5.4.1. Printing the idas Configuration... 40 5.4.2. Modifying the idas Configuration (Revision 2.1+)... 42 5.4.3. idas Configuration Script Syntax... 43 5.4.4. Data Channel Definition Syntax... 43 028370000 Rev B i

Table of Contents idas Instruction Manual 5.4.5. Data Parameter List Syntax... 44 5.4.6. Data Parameter Definition Syntax... 45 5.4.7. Deleting idas Channels (Revision 2.7+)... 45 5.4.8. idas Configuration Script Error Handling... 45 5.4.9. Limitations of Remote idas Configuration... 46 5.4.10. Obtaining the Number of Stored Data Records (Revision 2.4+)... 47 5.4.11. Modifying the Stored Data Records... 47 5.4.12. Printing the Stored Data Records... 47 5.4.13. Printing a Specific Number of Records... 48 5.4.14. Printing Records by Date/Time Range (Revision 2.4+)... 48 5.4.15. Verbose idas Report Format... 49 5.4.16. Compact idas Report Format... 50 5.4.17. Hexadecimal idas Report Format... 51 5.4.18. Hexadecimal idas Report Format (Revision 2.4-2.9)... 52 5.4.19. Hexadecimal idas Report Format (Revision 3.0+)... 53 5.4.20. Hexadecimal idas Report Format Programming Details... 54 5.4.21. Hexadecimal idas Report Format Sample Source Code... 54 5.4.22. Obtaining a List of Triggering Events (Revision 2.4+)... 62 5.4.23. Obtaining a List of Data Parameters (Revision 2.4+)... 63 LIST OF FIGURES Figure 2-1: idas Overview... 5 Figure 2-2: idas Overview... 8 Figure 2-3: Editing the List of Data Channels... 10 Figure 2-4: Editing the Data Channel s Properties... 11 Figure 2-5: Editing the List of Data Parameters... 12 Figure 2-6: Editing the Data Parameter s Properties... 13 Figure 2-7: Data Record Format (Revision 3.0+)... 28 Figure 4-1: Viewing the Data Channel Status... 33 Figure 4-2: Viewing the Stored Data for a Channel... 34 Figure 4-3: Stored Data File Format... 35 Figure 5-1: Sample idas Configuration Script... 42 LIST OF TABLES Table 1-1: Instruments Containing idas... 1 Table 1-2: idas Revision History... 2 Table 1-3: Special RS-232 Symbols... 3 Table 2-1: Data Parameter Properties... 6 Table 2-2: Data Channel Properties... 9 Table 2-3: Menu Buttons for Editing List of Data Channels... 14 Table 2-4: Menu Buttons for Editing Data Channel Properties... 15 Table 2-5: Converting 2-Digit Year to 4-Digit Year... 19 Table 2-6: Menu Buttons for Editing List of Data Parameters... 22 Table 2-7: Menu Buttons for Editing Data Parameter Properties... 22 Table 2-8: Data Channel Configuration for Monitoring Ozone Concentration... 25 Table 2-9: Data Channel Configuration for Monitoring Slope... 26 Table 2-10: Data Channel Configuration for Capturing Photometer Lamp Temperature Warnings... 27 Table 2-11: idas Configuration Limits... 27 Table 2-12: idas Storage Capacity... 28 Table 3-1: SAMPLE LED Indicator Meaning... 31 Table 4-1: idas Record View Format... 34 Table 5-1: Typical RS232_MODE Settings... 37 Table 5-2: RS-232 Commands for idas... 39 Table 5-3: Data Channel Property Syntax... 44 Table 5-4: Data Parameter Property Syntax... 45 ii 028370000 Rev B

idas Instruction Manual Table of Contents Table 5-5: Configuration Script Processing Result Messages... 46 Table 5-6: Verbose idas Report Format... 50 Table 5-7: Compact idas Report Format... 51 Table 5-8: Hexadecimal idas Report Format (Revision 2.4-2.9)... 52 Table 5-9: Hexadecimal idas Report Format (Revision 3.0+)... 53 028370000 Rev B iii

Table of Contents USER NOTES idas Instruction Manual iv 028370000 Rev B

idas Instruction Manual 1. INTRODUCTION Introduction This manual describes the built-in data acquisition system (idas) present in AMX-based analyzers. The terms analyzer and instruments are used interchangeably throughout this manual. This manual describes the most recent revision of the idas, however, differences between the most recent revision and earlier revisions are pointed out. 1.1. Design Objectives The idas is designed to implement predictive diagnostics that stores historical trending data so users can anticipate when an instrument will require service. The stored data is in a form that makes it easy to process with another computer application and plot graphically. The idas is designed to be flexible. It has a consistent user interface in all instruments, but each instrument s differences are accommodated. New data parameters and triggering events can be added to the instrument firmware as needed. Users have full control over which data is stored and when it is stored. The idas is designed to store a large amount of data. Depending on the sampling frequency and the number of data parameters, the idas can store more than a year s worth of data. The data is stored in non-volatile memory, where it is retained even when the instrument is powered off or a new firmware version is installed. The idas permits users to access the stored data via the instrument s front panel or the remote interface. The latter is designed for a remote computer to automatically download the stored data for further processing. 1.2. Instruments Containing idas Currently, the idas is present only in air pollution analyzers, though it could be installed in calibrators. It is also available only in AMX-based instruments because of the large memory requirements. Instruments Containing idas TML10 TML20 TML30 TML41 TML50 TML87/60 Note: Many of the instruments listed above include numerous variations. All the variations of each instrument also contain the idas Table 1-1: Instruments Containing idas 1.3. Evolution of the idas The idas has been around for many years and it has gone through a lot of evolution. The table below summarizes the significant features that were added to each revision of the idas. The main purpose of this table is to help iron out compatibility issues, particularly in cases where a computer 028370000 Rev B 1

Introduction idas Instruction Manual is attempting to interface to the idas. The idas revision number is the same as the library revision number, which can be viewed in most instruments by pressing SETUP-CFG and pressing NEXT repeatedly until the library revision number is displayed. idas Revision History Revision Features Added 3.3 Increased the maximum number of records. Added an RS-232 command to cancel the downloading of records in progress. 3.2 Increased the storage capacity in the TML Series instruments. 3.0 Added an option to store the number of samples in an average. Changed the hexadecimal record download format. 2.7 Added commands to add and delete individual channels through the RS-232 interface. 2.4 Added an RS-232 command to obtain the number of records available for each channel. Added options to request idas records by date range. 2.3 Added a hexadecimal record download format to increase the download speed and improve reliability. 2.1 Added support for configuring the idas through the RS-232 interface. Table 1-2: idas Revision History 1.4. Examples Used in this Manual The examples used in this manual refer to specific instruments. Keep in mind that the names of things will be different in other instruments. 1.5. Typographic Conventions Used in this Manual In this manual, front panel push buttons are indicated using bold capital characters, for example, SETUP. Push-button sequences are denoted by a series of button names, separated by dashes, such as SETUP-MORE-COMM-BAUD. Names of things such as properties, keywords, events, and setup variables are indicated using italicized capital characters, as in PARAMETERS, or ATIMER, or RS232_MODE. RS-232 printouts are enclosed in a shaded box, with user input in lower case, and instrument output in upper case, like so: d report pnumtc records = 1 compact<cr> D 79:12:00 0400 PNUMTC: 1 719.6 29.8<CR-LF> 2 028370000 Rev B

idas Instruction Manual Introduction In RS-232 printouts, non-printable characters are denoted by special symbols consisting of several characters enclosed in angle brackets, as shown in the table below. All commands must be terminated by a carriage return, so if a <CR> symbol is not shown in an RS-232 command, it is implied. Similarly, all messages transmitted by the instrument are terminated by a carriage returnline feed pair; so if a <CR-LF> symbol is not shown in an RS-232 output, it is implied. Symbol <ESC> <SP> <BS> <CR> <LF> <CR-LF> Special RS-232 Symbols Character Represented Escape Space Backspace Carriage Return Line Feed Carriage Return, Line Feed pair Table 1-3: Special RS-232 Symbols 028370000 Rev B 3

Introduction USER NOTES idas Instruction Manual 4 028370000 Rev B

idas Instruction Manual Configuration 2. CONFIGURATION This section explains how to configure the idas to collect the data you want. Configuration mainly consists of creating data channels and setting their various properties as desired. These topics are described in detail below. 2.1. Data Parameters, Triggering Events, and Data Channels The idas is comprised of three principal objects: data parameters, triggering events, and data channels. While reading the following descriptions of these objects refer to the diagram below for an understanding of how these objects work together. Figure 2-1: idas Overview 028370000 Rev B 5

Configuration idas Instruction Manual 2.1.1. Data Parameters Data parameters are the data points in the instrument that may be measured and stored. The list of data parameters is arbitrary, but it essentially consists of readings that appear in test measurements on the display, as well as some internal parameters, such as the concentration just prior to calibrating the instrument. The list of data parameters is specific to each instrument, although some data parameters are present in all instruments. Refer to each instrument s documentation for the list of data parameters for that instrument. The data parameter names are limited to six characters because of display size constraints. The list of data parameters is not customizable in any way by the user. You can obtain a list of all the data parameters through the RS-232 interface. Refer to the section titled RS- 232 Interface to the idas for more information. Most data parameters have measurement units associated with them, such as mv, PPB, cc/m, etc., although some have no units. The idas is not designed to permit these units to be changed. This restriction is mainly due to the fact that the instruments themselves do not support changing the measurement units of most of its readings. If a computer is being used to interface to the idas, that computer can perform unit conversions. One exception to this rule is the concentration units. Since the primary function of most instruments is to measure concentration, they all permit users to change the concentration units. Beginning with idas revision 3.0, when you change the concentration units in an instrument, data parameters with units of concentration will be reported in the current instrument units. An exception to this is when you download reports using the hexadecimal format. Because this format downloads raw records for maximum performance, performing unit conversions would involve too much overhead. When downloading records using the hexadecimal format, which can only be done by a computer anyway, it is the receiving computer s responsibility to perform any desired unit conversions. Data parameters have a few user-configurable properties, which are summarized in the table below. Property PARAMETER SAMPLE MODE PRECISION STORE NUM. SAMPLES 1 1 Revision 3.0+. Data Parameter Properties Description Instrument-specific data point name INST: Records instantaneous reading AVG: Records average reading during reporting interval MIN: Records minimum reading during reporting interval MAX: Records maximum reading during reporting interval Decimal point precision for display purposes If ON, stores the number of samples in each average for only this parameter. If OFF, stores only the average. This property is really only useful when the AVG sample mode is used. Table 2-1: Data Parameter Properties 6 028370000 Rev B

idas Instruction Manual Configuration 2.1.2. Triggering Events Triggering events trigger data channels to store data parameters. Triggering events are things such as expired timers, exiting from calibration, or the occurrence of a warning condition. The list of triggering events is specific to each instrument, although some triggering events are present in all instruments. Refer to each instrument s documentation for the list of triggering events for that instrument. The triggering event names are limited to six characters because of display constraints. The list of triggering events is not customizable in any way by the user. You can obtain a list of all the triggering events through the RS-232 interface. Refer to the section titled RS- 232 Interface to the idas for more information. 2.1.3. Data Channels Data channels connect the triggering events to the data parameters. For each data channel the user selects one triggering event and one or more data parameters to store. This means that there are many possible combinations of triggering events and data parameters, which is the key to the system s flexibility. Users may create up to 20 data channels, each with up to 50 data parameters. Each instrument has some default data channels defined in the firmware. The user is free to modify or delete the default data channels. Refer to each instrument s documentation for the list of default data channels for that instrument. The diagram below shows how data channels link triggering events and data parameters together. It also shows the menu button sequences required to edit the lists of data channels and data parameters. 028370000 Rev B 7

Configuration idas Instruction Manual Figure 2-2: idas Overview 8 028370000 Rev B

idas Instruction Manual Configuration Data channels have a few user-configurable properties, which are summarized in the table below. Data Channel Properties Property Description Initial Setting Setting Range NAME The data channel s name (for reports and Up to 6 letters NONE RS-232 access) and digits EVENT Any of the events listed in the table The event that triggers this data channel ATIMER of triggering to measure and store its data parameters. events shown above. PARAMETERS The number of data parameters sampled by this data channel. You don t edit this number directly. It s set when you edit the list of parameters for the channel. REPORT PERIOD The amount of time between each report 000:01:00 NUMBER OF RECORDS RS-232 REPORT CHANNEL ENABLED CAL. HOLD OFF STARTING DATE The number of reports that will be stored in the data file. Indicates whether a report will be printed automatically to the RS-232 channel Provides a convenient means to temporarily disable a data channel Disables sampling of data parameters while instrumentation is in calibration mode Hard Properties The date when the first sample will be taken. Each additional sample is taken in multiples of SAMPLE PERIOD from the starting date. 1 1 to 50 100 OFF ON OFF Midnight, January 1 st of the current year SAMPLE PERIOD The amount of time between each sample 000:00:01 COMPACT REPORT Indicates whether the report printed on the RS-232 channel will be compact or verbose. This is only the default format. You can override this setting by specifying options when requesting reports. OFF 000:00:01 to 366:23:59 (Days:Hours:Min.) 1 to 999,999 (limited by available storage space) OFF or ON OFF or ON OFF or ON 01-JAN-1970 to 31-DEC-2069 000:00:01 to 366:23:59 (Days:Hours:Min.) OFF or ON Table 2-2: Data Channel Properties 028370000 Rev B 9

Configuration idas Instruction Manual 2.2. Menu Tree for Configuring idas This section describes the menu tree used to configure the idas; it assumes that the user is familiar with the instrument s menu-driven user interface. The entire menu tree is quite large-too large to comfortably fit in a single diagram so it is broken up into four separate diagrams. 2.2.1. Editing the List of Data Channels The diagram below shows the menu tree for editing the list of data channels, starting from the instrument s main menu. Figure 2-3: Editing the List of Data Channels If you press EDIT, you will go to the data channel property menu described in the next section. 10 028370000 Rev B

idas Instruction Manual Configuration 2.2.2. Editing the Data Channel s Properties The diagram below shows the menu tree for editing the data channel s properties, starting from the previous menu. Figure 2-4: Editing the Data Channel s Properties If you press EDIT while viewing the PARAMETERS property, you go to the menu described in the next section. 028370000 Rev B 11

Configuration idas Instruction Manual 2.2.3. Editing the List of Data Parameters The diagram below shows the menu tree for editing the list of data parameters, starting from the previous menu. Figure 2-5: Editing the List of Data Parameters If you press EDIT, you will go to the data parameter property menu described in the next section. 12 028370000 Rev B

idas Instruction Manual Configuration 2.2.4. Editing the Data Parameter s Properties The diagram below shows the menu tree for editing the data parameter s properties, starting from the previous menu. Figure 2-6: Editing the Data Parameter s Properties 2.3. Modifying the idas Configuration The previous sections gave an overview of the idas organization and the menu tree. This section describes the configuration in more detail. While modifying the idas configuration data collection is suspended and remote access is inhibited. 028370000 Rev B 13

Configuration idas Instruction Manual 2.3.1. Configuring Data Channels You configure the data channels by editing the list of data channels and changing the properties for data channels. Refer to Figure 2-3: Editing the List of Data Channels to see how to get to this menu. Once you get into this menu, the instrument displays a summary of the first data channel that looks like the following. The underlined portion constitutes the data channel summary. SETUP C.7 0) CONC :ATIMER, 1,800 PREV NEXT INS DEL EDIT PRINT EXIT 0 in this example is simply the data channel s index in the list. The first data channel in the list is at index 0; the second is at index 1, and so on. CONC in this example is the name of the data channel. It may be any six-character, user-defined name. ATIMER is the triggering event. In this example, the data channel is triggered by an automatic timer. 1 in this example is the number of data parameters that the data channel will sample. In this case, there is only one parameter. Finally, 800 is the number of records that will be stored in the data channel s data file. In this example, the file stores only the most recent 800 records. You can move to the next data channel by pressing NEXT until you get to the end of the list, when you will see the following. SETUP C.7 END OF DATA CHANNELS PREV INS PRINT EXIT The menu buttons are described in the table below. Menu Buttons for Editing List of Data Channels Button Description PREV Move to previous data channel NEXT Move to next data channel INS Insert a new data channel before current one. Delete current data channel. When you delete a data channel, the memory consumed by its data DEL file is recovered. Therefore, you should delete any unneeded data channels before inserting new ones. Edit properties for current data channel. See EDIT sections below for details. Print configuration of all data channels to RS- PRNT 232 interface. Table 2-3: Menu Buttons for Editing List of Data Channels 14 028370000 Rev B

idas Instruction Manual Configuration 2.3.2. Easy Data Channel Properties in Detail This section describes each of the data channel properties in detail. Refer to Table 2-2: Data Channel Properties for a summary of the properties. Once you get into this menu, the instrument displays the value of the first data channel property similar to the following. SETUP C.7 NAME:CONC <SET SET> EDIT PRNT EXIT The menu buttons are described in the table below. Menu Buttons for Editing List of Data Channels Button Description <SET Move to previous property SET> Move to next property EDIT Edit current property. See property descriptions below for details. PRNT Print configuration of current data channel to RS-232 interface. NAME Table 2-4: Menu Buttons for Editing Data Channel Properties Each data channel must have a unique name. This name appears in the menus and on the RS-232 interface. This name is also used to request idas reports via the RS-232 interface. In order to view the entire name on the front panel display, it should consist of no more than six letters and digits. However, if you are configuring the idas through the RS-232 interface and using the idas primarily with the RS-232 interface, you can assign a channel a longer name, consisting of not only upper case letters and digits, but lower case letters as well, as in Concentration. Note that if you subsequently view the channel on the front panel display, only the first six characters will be shown. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 NAME:CONC - - C O N C - - ENTER EXIT You may change the data channel s name and then press ENTR to accept the changes or EXIT to abort the changes. The first (left-most) dash in the name denotes the end of the name. EVENT Each data channel has one triggering event that triggers data collection. All triggering events except ATIMER also generate a report that is stored in the data channel s data file. ATIMER events generate a report only after the report period has elapsed. 028370000 Rev B 15

Configuration idas Instruction Manual If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 EVENT:ATIMER PREV NEXT ENTER EXIT Use the PREV and NEXT buttons to scroll through the list of events and then press ENTR to select the new event or EXIT to keep the old one. PARAMETERS When viewing the property summary in the configuration menu this property shows only the number of data parameters that the data channel samples, as shown below. SETUP C.7 PARAMETERS:1 <SET SET> EDIT PRNT EXIT If you press EDIT while viewing this property, you go to another menu that edits the list of data parameters. Refer to Figure 2-5: Editing the List of Data Parameters for detailed information. If you modify the list of data parameters, the data file and all of the data it contains is deleted and a new data file is created, be sure you have saved the old data before you modify the list of data parameters. REPORT PERIOD This property controls when reports are generated for ATIMER events only. For all other events, reports are issued immediately when the event occurs. The report period is specified in units of days, hours, and minutes, measured from midnight of the STARTING DATE property. For example, if the data channel was created on 15-Oct-2001 and REPORT PERIOD is 000:01:00 (one hour), then the first report will be generated at 1:00 AM, 15-Oct-2001, the second report will be at 2:00 AM, and so on. If REPORT PERIOD is 001:00:00 (one day), then the first report will be generated at 12:00 AM, 16- Oct-2001, the second at 12:00 AM, 17-Oct-2001, and so on. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 REPORT PERIOD DAYS: 0 0 0 0 ENTR EXIT You should enter the number of days between each report and press ENTR to accept the changes or EXIT to abort the changes. If you press ENTR, you will go to the next display. 16 028370000 Rev B

idas Instruction Manual Configuration SETUP C.7 REPORT PERIOD TIME: 01:00 0 1: 0 0 ENTR EXIT You should enter the number of hours and minutes between each report and press ENTR to accept the changes or EXIT to abort the changes. Note that the hours and minutes are added to the days to form the total report period. Therefore, if the number of days is one and the number of hours is one, then the total report period is 25 hours. NUMBER OF RECORDS This property specifies how many records (reports) are stored in the data file. Each record consists of a time stamp and one or more data parameters. Once the data file has reached its capacity the idas begins replacing the oldest records in the file with new ones. Thus, the data file contains only the most recent records. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 NUMBER OF RECORDS: 800 0 8 0 0 ENTR EXIT You should enter the number of records to store and press ENTR to accept the changes or EXIT to abort the changes. If you modify the number of records, the data file and all of the data it contains is deleted and a new data file is created. Be sure you have saved the old data before you modify the number of records. When you are finished editing a channel, the instrument creates the data file for storing the channel s records. If you specify a large number of records, such as 10,000, you will probably see a display like the following while the instrument creates the data file: SETUP C.7 CREATING NEW DATA FILE XXX% Depending on the number of records you specified, it can take up to a couple of minutes to create the data file, so be patient. RS-232 REPORT If this property is enabled, then every time a new report is generated it is printed to the RS-232 interface. Regardless of the setting of this property, reports are always stored in the data file and may be retrieved later, even via the RS-232 interface. 028370000 Rev B 17

Configuration idas Instruction Manual Usually you would enable this property only if you have a printer connected to the instrument for maintaining an audit trail. If you have a computer connected to the instrument, it is better to have the computer explicitly request the reports using commands. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 RS-232 REPORT: OFF OFF ENTR EXIT Select ON to have reports printed to the RS-232 or OFF to disable printing and press ENTR to accept the changes or EXIT to abort the changes. CHANNEL ENABLED This property enables sampling of a channel s data parameters. This property provides a convenient means to temporarily disable a channel while retaining its configuration and data. Later, you can re-enable the channel and resume data collection. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 CHANNEL ENABLED: ON ON ENTR EXIT Select ON to enable data sampling or OFF to disable sampling and press ENTR to accept the changes or EXIT to abort the changes. CAL HOLD OFF When enabled, this property inhibits data sampling while the instrument is in any calibration mode. Some parameters, such as concentration, should not be sampled while in calibration mode. This property should really be used only with data channels that are triggered by an ATIMER event. Data sampling is also inhibited for a few minutes after the instrument exits calibration and returns to sample mode. The duration of this post-calibration hold off is controlled by the DAS_HOLD_OFF setup variable. The post-calibration hold off is the same for all data channels that have this property enabled. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 CAL. HOLD OFF: ON ON ENTR EXIT Select ON to enable calibration hold off or OFF to disable it and press ENTR to accept the changes or EXIT to abort the changes. 18 028370000 Rev B

idas Instruction Manual Configuration 2.3.3. Hard Data Channel Properties in Detail These properties are seldom used so they are normally hidden from view. Contact the factory for instructions on modifying these properties. STARTING DATE This property specifies the first date to begin sampling data. Reports are generated at REPORT PERIOD intervals measured from midnight of the starting date. Normally STARTING DATE is the date that the data channel was created. However, if you want to begin collecting data some time in the future you can change this property. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 STARTING DATE: 15-OCT-01 1 5 OCT 0 1 ENTR EXIT Enter the starting data and press ENTR to accept the changes or EXIT to abort the changes. Notice that you may enter only two digits for the year. The century portion of the year is determined according to the following table. Converting 2-Digit Year to 4-Digit Year 2-Digit Year 4-Digit Year 00-69 2000-2069 70-99 1970-1999 Table 2-5: Converting 2-Digit Year to 4-Digit Year SAMPLE PERIOD This property controls how frequently data parameters are sampled for ATIMER events only. For all other events, the data parameters are sampled immediately when the event occurs. As for the REPORT PERIOD property, the sample period is specified in units of days, hours, and minutes, measured from midnight of the STARTING DATE property. The sample period should be less than the report period. Otherwise, the reports may not contain any samples. Refer to the REPORT PERIOD property for examples of how these periods are measured. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 SAMPLE PERIOD DAYS: 0 0 0 0 ENTR EXIT 028370000 Rev B 19

Configuration idas Instruction Manual You should enter the number of days between each sample and press ENTR to accept the changes or EXIT to abort the changes. If you press ENTR, you will go to the next display. SETUP C.7 SAMPLE PERIOD TIME: 00:01 0 0 0 1 ENTR EXIT You should enter the number of hours and minutes between each sample and press ENTR to accept the changes or EXIT to abort the changes. COMPACT REPORT This property controls the default format of reports printed to the RS-232, including those printed automatically and those explicitly requested by RS-232 commands. When compact reports are enabled, the reports are printed as shown below. D 288:10:11 0400 CONC : 1 11.2 D 288:10:12 0400 CONC : 1 11.2 D 288:10:13 0400 CONC : 1 11.2 Notice that except for the data channel s name, the report above contains only numeric data. The simpler format makes this report easier for a computer to parse. Furthermore, the compact report can print up to five parameters on a single line, whereas the verbose format prints each parameter on a separate line. Therefore, the compact report format uses far fewer characters to report the same information, which is important when downloading idas data from remote instruments. When compact reports are disabled, the reports are printed as shown below. D 288:10:11 0400 CONC : AVG O3CNC1= 11.2 PPB D 288:10:12 0400 CONC : AVG O3CNC1= 11.2 PPB D 288:10:13 0400 CONC : AVG O3CNC1= 11.2 PPB If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 COMPACT REPORT: OFF OFF ENTR EXIT Select ON to print compact reports or OFF to print verbose reports and press ENTR to accept the changes or EXIT to abort the changes. 20 028370000 Rev B

idas Instruction Manual Configuration 2.3.4. Configuring Data Parameters You configure the data parameters by editing the list of data parameters and changing the properties for data parameters. Refer to Figure 2-5: Editing the List of Data Parameters to see how to get to this menu. If you modify the list of data parameters in any way, the data file and all of the data it contains is deleted and a new data file is created. Be sure you have saved the old data before you modify the list of data parameters. Once you get into this menu, the instrument displays a summary of the first data parameter that looks like the following. The underlined portion constitutes the data parameter summary. SETUP C.7 0) PARAM=O3CNC1, MODE=AVG PREV NEXT INS DEL EDIT EXIT 0 in this example is simply the data parameter s index in the list. The first data parameter in the list is at index 0; the second is at index 1, and so on. O3CNC1 is the specific data parameter that will be sampled. In this example it s ozone concentration for range1. Refer to each instrument s documentation for the list of data parameters for that instrument. AVG is the sampling mode. In this case, the mode is average. Refer to Table 2-1: Data Parameter Properties for a complete list of sampling modes. You can move to the next data parameter by pressing NEXT until you get to the end of the list, when you will see the following. SETUP C.7 END OF PARAMETERS PREV INS EXIT 028370000 Rev B 21

Configuration idas Instruction Manual The menu buttons are described in the table below. Menu Buttons for Editing List of Data Parameters Button Description PREV Move to previous data parameter. NEXT Move to next data parameter. INS Insert a new data parameter before current one. DEL Delete current data parameter. EDIT Edit properties for current data parameter. See section below for details. Table 2-6: Menu Buttons for Editing List of Data Parameters 2.3.5. Data Parameter Properties in Detail This section describes each of the data parameter properties in detail. Refer to Table 2-1: Data Parameter Properties for a summary of properties. Once you get into this menu, the instrument displays the value of the first data parameter property similar to the following. SETUP C.7 PARAMETER: O3CNC1 <SET SET> EDIT EXIT The menu buttons are described in the table below. Menu Buttons for Editing Data Parameter Properties Button Description <SET Move to previous property SET> Move to next property EDIT Edit current property. See property descriptions below for details. Table 2-7: Menu Buttons for Editing Data Parameter Properties PARAMETER This property selects the instrument-specific data point to sample. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 PARAMETER: O3CNC1 PREV NEXT ENTR EXIT Use the PREV and NEXT buttons to scroll through the list of parameters and then press ENTR to select the new parameter or EXIT to keep the old one. 22 028370000 Rev B

idas Instruction Manual Configuration SAMPLE MODE This property selects the sampling mode for the parameter. The AVG, MIN, and MAX modes are really only useful in data channels that are triggered by ATIMER events because only these events can cause multiple readings to be taken between each report. In data channels that are triggered by other events, use the INST sampling mode. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 SAMPLE MODE: AVG INST AVG MIN MAX ENTR EXIT Select the desired sampling mode and then press ENTR to accept the changes or EXIT to abort the changes. PRECISION This property specifies the number of digits to display to the right of the decimal point. If you press EDIT while viewing this property, you will see a display similar to the following. SETUP C.7 PRECISION: 1 1 ENTR EXIT Enter a number from 0 to 4 and then press ENTR to accept the changes or EXIT to abort the changes. STORE NUM. SAMPLES (Revision 3.0+) This property specifies whether to store the number of samples that make up each report. For example, if the sample period is one minute, and the report period is one hour, then 60 samples will be taken for each report. If the sample mode is AVG, then these 60 samples will be averaged and a single average value will be stored in the data file. Setting the STORE NUM. SAMPLES property to ON will store not only the average value, but also the number 60. When you request reports for this channel later, the number of samples in each report will be printed, as shown below. D 288:09:00 0400 CONC : AVG O3CNC1= 11.2 PPB SAMPLES= 18 D 288:10:00 0400 CONC : AVG O3CNC1= 11.2 PPB SAMPLES= 60 D 288:11:00 0400 CONC : AVG O3CNC1= 11.2 PPB SAMPLES= 60 Notice that the first report shown above contains only 18 samples, whereas the rest contain 60 samples. The number of samples can give you some idea of the validity of the data. You cannot obtain the individual samples that make up the average. If you press EDIT while viewing this property, you will see a display similar to the following. 028370000 Rev B 23

Configuration idas Instruction Manual SETUP C.7 STORE NUM. SAMPLES: ON ON ENTR EXIT Select the desired mode for this property and then press ENTR to accept the changes or EXIT to abort the changes. 24 028370000 Rev B

idas Instruction Manual Configuration 2.4. Configuration Examples This section describes some typical idas data channel configurations. 2.4.1. Sampling at Regular Intervals Most trending information can be stored at regular intervals by triggering a data channel with an automatic timer. One possible configuration for collecting ozone concentration readings is summarized in the table below. Data Channel Configuration for Monitoring Ozone Concentration Setup Property Setting Description NAME CONC User-defined name for the data channel. This name is only significant to the user. EVENT ATIMER Data channel will be triggered by a timer. The default sample period is one minute so the concentration will be sampled once per minute. REPORT PERIOD 000:01:00 A concentration report will be stored in the data file every hour. This could be every few minutes or every few days instead. 800 reports will be stored in the data file. NUMBER OF RECORDS 800 The number of records is limited only by the available memory. RS-232 REPORT OFF The hourly reports will not be printed on the RS-232 interface. The reports can be printed to the RS-232 interface later. CHANNEL ENABLED ON The data channel is enabled. This property is useful for temporarily disabling a data channel. CAL. HOLD OFF ON The concentration will not be sampled while the instrument is in calibration mode. Not all data parameters are affected by calibration so this setting is not pertinent to some parameters. PARAMETER O3CNC1 The data channel will sample the ozone concentration for range #1. MODE AVG The data channel will average the concentration samples during the hour. Since the sample period is one minute, this average will consist of 60 one-minute samples. PRECISION 1 The concentration average will be displayed with one digit to the right of the decimal point. Table 2-8: Data Channel Configuration for Monitoring Ozone Concentration 028370000 Rev B 25

Configuration idas Instruction Manual 2.4.2. Sampling during Calibration It might be desirable to monitor the instrument s slope to look for drift. Since the slope changes only following a calibration, it is easiest to trigger the data channel with an event such as SLPCHG. The table below shows one possible configuration. Data Channel Configuration for Monitoring Slope Setup Property Setting Description NAME CALDAT User-defined name for the data channel. EVENT SLPCHG Data channel will be triggered whenever the slope is recalculated. REPORT PERIOD ---- This property is used only when the event is ATIMER. NUMBER OF RECORDS 200 200 reports will be stored in the data file. RS-232 REPORT OFF The reports will not be printed on the RS- 232 interface. CHANNEL ENABLED ON The data channel is enabled. CAL. HOLD OFF PARAMETER MODE PRECISION 3 OFF SLOPE1 INST Do not enable this or else the slope will not be sampled since its sampled while in calibration mode. The data channel will sample the slope for range #1. The data channel will take a single slope sample. The concentration average will be displayed with three digits to the right of the decimal point. Table 2-9: Data Channel Configuration for Monitoring Slope 26 028370000 Rev B

idas Instruction Manual Configuration 2.4.3. Sampling after Exceptional Events The previous two examples are ordinary ones. The following example would probably be used only to diagnose a problem with an instrument. Suppose you had an instrument that periodically generated photometer lamp temperature warnings. The following configuration would record the photometer lamp temperature at the time the warning was issued. Data Channel Configuration for Capturing Photometer Lamp Temperature Warnings Setup Property Setting Description NAME LMPWRN User-defined name for the data channel. EVENT PHTMPW Data channel will be triggered whenever a photometer lamp warning occurs. REPORT PERIOD ---- This property is used only when the event is ATIMER. NUMBER OF RECORDS 10 10 reports will be stored in the data file. RS-232 REPORT ON The reports will be printed on the RS-232 interface. So on the audit trail you ll see the warning message and the temperature that triggered it. CHANNEL ENABLED ON The data channel is enabled. CAL. HOLD OFF PARAMETER MODE PRECISION 1 OFF PHTEMP INST Do not enable this or else the warning will not be stored if the instrument is in calibration mode. The data channel will sample the photometer lamp temperature. The data channel will take a single temperature sample. The concentration average will be displayed with one digit to the right of the decimal point. Table 2-10: Data Channel Configuration for Capturing Photometer Lamp Temperature Warnings 2.5. Maximum Number of Channels, Parameters, and Records Because the instruments have a finite storage capacity, there are some limits on the number of idas objects you can create, as summarized in the table below. idas Configuration Limits Feature Maximum Number 1 Data channels 20 Data parameters per data channel 50 Total data parameters that may be monitored 1,000 Records stored per data channel 999,999 1 Actual number is limited by available storage space and will be less than the maximum. Table 2-11: idas Configuration Limits 028370000 Rev B 27

Configuration idas Instruction Manual The actual number of data parameters that may be stored depends on the available storage space and the number of parameters being sampled by a channel. Sensor-e instruments have a total of 1024 KB (1,048,576 bytes) of space for storing idas data (Revision 3.2+. Prior to revision 3.2, the storage capacity was 128 KB.). About 3 KB is used by the file system, and about 1 KB is reserved for future use. That leaves about 1020 KB (1,044,480 bytes) available for storing data. Each record in a channel s data file consists of a time stamp, the number of samples in the value for the parameter, the value for the parameter, and a CRC for the entire record, as shown below. Figure 2-7: Data Record Format (Revision 3.0+) The number of samples is optional and separate for each parameter. Based on the record format shown above, the size of each record is: record size (bytes) = 4 + (4 x S) + (4 x N) + 2, Where S is the number of parameters with the STORE NUM. SAMPLES property set to ON and N is the number of parameters. The minimum record size, storing a single parameter, is 10 bytes. The maximum record size, storing 50 parameters and the number of samples for each, is 406 bytes. The total number of records that you can store in a channel is simply equal to the instrument s available storage space divided by the record size. Therefore, for example, if the instrument has 62,464 bytes of space available, and the record size is 10 bytes, the instrument can store 6,246 records. The table below shows the idas storage capacity in terms of records and parameters, based on the number of parameters in a channel. idas Storage Capacity Maximum Number of Records that May Be Stored 1 104,448 104,448 10 22,706 227,060 20 12,145 242,900 30 8,289 248,670 Number of Parameters in a Channel Maximum Number of Parameters that May Be Stored Table 2-12: idas Storage Capacity 28 028370000 Rev B

idas Instruction Manual Configuration The data channel s file size can be calculated by multiplying the record size by one plus the number of records, as shown below: Where R is the number of records. file size (bytes) = <record size> x (1 + R ), When configuring the idas using a configuration script (see Modifying the idas Configuration below), you should calculate the file size for each data channel using the above equations to ensure that the total required space does not exceed the space available in the instrument. Otherwise, unpredictable problems will result. 028370000 Rev B 29

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idas Instruction Manual OPERATING THE idas 3. OPERATING THE IDAS 3.1. When the idas is Operating The idas operates automatically whenever any data channels are enabled and while the idas configuration is not being modified. While the idas configuration is, being modified the idas is suspended. 3.2. Disabling the idas You can disable the idas only by setting the CHANNEL ENABLED property of each data channel to OFF or by deleting all the channels. 3.3. idas Status Indicators The green SAMPLE LED on the instrument front panel provides a general indication of the idas status, as summarized in the table below. LED State Off Blinking On SAMPLE LED Indicator Meaning idas Status Not sampling (e.g. in zero or span calibration). Not sampling. In hold off mode. Sampling normally. Table 3-1: SAMPLE LED Indicator Meaning 3.4. Averages in Progress when Instrument is Powered Off The idas is capable of averaging data parameter samples over very long time intervals. For example, each concentration report typically consists of the average of 60 one-minute samples. If the instrument is powered off in the middle of the averaging interval, the samples accumulated so far are saved in non-volatile memory. If the instrument is powered back on during the same averaging interval, the idas resumes adding samples to the same average. For example, suppose a data channel is set up to average the concentration for a one-hour interval. If the instrument is powered off 20 minutes into the averaging interval, the average will contain 20 samples, which will be stored in non-volatile memory. If the instrument remains off for 10 minutes before being powered back on, the data channel will accumulate another 30 samples into the same average. Therefore, the average will contain 50 samples for that one-hour averaging interval. If the number of samples were stored, then for this report, the value of 50 would be stored in the data file in addition to the average. 028370000 Rev B 31

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idas Instruction Manual Viewing the Stored Data 4. VIEWING THE STORED DATA Once you have stored some data you will probably want to view it. This section describes how to view the stored data. Whereas data sampling is suspended while configuring the idas, data sampling continues normally while viewing the data. 4.1. Menu for Viewing the Data Channel Status The diagram below shows the menu tree for viewing the status of data channels, starting from the instrument s main menu. Figure 4-1: Viewing the Data Channel Status When you enter this menu, the instrument shows the status of the first data channel, similar to the following display. SETUP C.7 PNUMTC: DATA AVAILABLE PREV NEXT VIEW EXIT The example above indicates that data has been stored for the data channel named PNUMTC. If no data had been stored for the channel the display would look like this. SETUP C.7 PNUMTC: NO DATA AVAILABLE PREV NEXT EXIT You can press the PREV and NEXT buttons to view the status of other channels. If you press VIEW, you will go to the stored data view menu described in the next section. 028370000 Rev B 33

Viewing the Stored Data idas Instruction Manual 4.2. Menu for Viewing the Stored Data for a Channel The diagram below shows the menu tree for viewing the stored data for a single channel, starting from the previous menu. Figure 4-2: Viewing the Stored Data for a Channel When you enter this menu, the instrument shows the first stored data record for the data channel, similar to the following display. This example is for the data channel named PNUMTC. SETUP C.7 79:12:00 SMPFLW=719.6 cc/m PV10 PREV NEXT NX10 <PRM PRM> EXIT The format of the display above is described in the table below. idas Record View Format Display Field Description This is the record s time stamp in the format of 79:12:00 day-of-year:hours:minutes. This record was recorded on the 79 th day of the year at 12:00 noon. SMPFLW This is the data parameter being sampled. 719.6 This value was sampled for the data parameter. cc/m This is the unit of measurement that the sampled value is in. Table 4-1: idas Record View Format 34 028370000 Rev B

idas Instruction Manual Viewing the Stored Data If the data channel has more than one data parameter the <PRM and PRM> buttons will appear. Since the data channel in this example has two parameters the <PRM and PRM> buttons are shown. If you press the PRM> button the instrument will show the stored data for the next parameter in the record, SMPPRS in this example, as shown below. SETUP C.7 79:12:00 SMPPRS=29.8 InHg PV10 PREV NEXT NX10 <PRM PRM> EXIT Notice that the time stamps in the above two displays are the same. This is because both parameters are part of the same record. Use the PREV and NEXT buttons to move between records, and the <PRM and PRM> buttons to move between data parameters in the same record. 4.3. Data is Stored as Two Dimensional Table The data for each data channel is stored in the data file as a two dimensional table, with each row storing one record, and each column storing one data parameter. The diagram below shows how the data is stored in the data file. Figure 4-3: Stored Data File Format 028370000 Rev B 35